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Rollup merge of #104543 - JhonnyBillM:migrate-codegen-ssa-to-diagnostics-structs-pt3, r=davidtwco 

Migrate `codegen_ssa` to diagnostics structs - [Part 3]

Completes migrating `codegen_ssa` module except 2 outstanding errors that depend on other crates:
1. [`rustc_middle::mir::interpret::InterpError`](b6097f2e1b/compiler/rustc_middle/src/mir/interpret/error.rs (L475)): I saw `rustc_middle` is unassigned, I am open to take this work.

2.  `codegen_llvm`'s use of `fn span_invalid_monomorphization_error`, which I started to replace in the [last commit](9a31b3cdda) of this PR, but would like to know the team's preference on how we should keep replacing the other macros:
2.1. Update macros to expect a `Diagnostic`
2.2. Remove macros and expand the code on each use.
See [some examples of the different options in this experimental commit](64aee83e80)

_Part 2 - https://github.com/rust-lang/rust/pull/103792_

r? ``@davidtwco``
Cc ``@compiler-errors``
This commit is contained in:
Matthias Krüger 2023-01-07 20:43:19 +01:00 committed by GitHub
parent 08653c8c57 4d63d7d91c
commit 771cfa5581
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GPG Key ID: 4AEE18F83AFDEB23
15 changed files with 920 additions and 341 deletions
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2
Cargo.lock
View File

@ -3890,6 +3890,7 @@ dependencies = [
"rustc_span", "rustc_span",
"rustc_symbol_mangling", "rustc_symbol_mangling",
"rustc_target", "rustc_target",
"rustc_type_ir",
"serde_json", "serde_json",
"smallvec", "smallvec",
"snap", "snap",
@ -4024,6 +4025,7 @@ dependencies = [
"rustc_serialize", "rustc_serialize",
"rustc_span", "rustc_span",
"rustc_target", "rustc_target",
"rustc_type_ir",
"serde", "serde",
"serde_json", "serde_json",
"termcolor", "termcolor",

461
compiler/rustc_codegen_llvm/src/intrinsic.rs
View File

@ -8,8 +8,8 @@ use crate::va_arg::emit_va_arg;
use crate::value::Value; use crate::value::Value;
use rustc_codegen_ssa::base::{compare_simd_types, wants_msvc_seh}; use rustc_codegen_ssa::base::{compare_simd_types, wants_msvc_seh};
use rustc_codegen_ssa::common::span_invalid_monomorphization_error;
use rustc_codegen_ssa::common::{IntPredicate, TypeKind}; use rustc_codegen_ssa::common::{IntPredicate, TypeKind};
use rustc_codegen_ssa::errors::{ExpectedPointerMutability, InvalidMonomorphization};
use rustc_codegen_ssa::mir::operand::OperandRef; use rustc_codegen_ssa::mir::operand::OperandRef;
use rustc_codegen_ssa::mir::place::PlaceRef; use rustc_codegen_ssa::mir::place::PlaceRef;
use rustc_codegen_ssa::traits::*; use rustc_codegen_ssa::traits::*;
@ -284,15 +284,11 @@ impl<'ll, 'tcx> IntrinsicCallMethods<'tcx> for Builder<'_, 'll, 'tcx> {
_ => bug!(), _ => bug!(),
}, },
None => { None => {
span_invalid_monomorphization_error( tcx.sess.emit_err(InvalidMonomorphization::BasicIntegerType {
tcx.sess,
span, span,
&format!( name,
"invalid monomorphization of `{}` intrinsic: \ ty,
expected basic integer type, found `{}`", });
name, ty
),
);
return; return;
} }
} }
@ -838,40 +834,24 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
llret_ty: &'ll Type, llret_ty: &'ll Type,
span: Span, span: Span,
) -> Result<&'ll Value, ()> { ) -> Result<&'ll Value, ()> {
// macros for error handling:
#[allow(unused_macro_rules)]
macro_rules! emit_error {
($msg: tt) => {
emit_error!($msg, )
};
($msg: tt, $($fmt: tt)*) => {
span_invalid_monomorphization_error(
bx.sess(), span,
&format!(concat!("invalid monomorphization of `{}` intrinsic: ", $msg),
name, $($fmt)*));
}
}
macro_rules! return_error { macro_rules! return_error {
($($fmt: tt)*) => { ($diag: expr) => {{
{ bx.sess().emit_err($diag);
emit_error!($($fmt)*);
return Err(()); return Err(());
} }};
}
} }
macro_rules! require { macro_rules! require {
($cond: expr, $($fmt: tt)*) => { ($cond: expr, $diag: expr) => {
if !$cond { if !$cond {
return_error!($($fmt)*); return_error!($diag);
} }
}; };
} }
macro_rules! require_simd { macro_rules! require_simd {
($ty: expr, $position: expr) => { ($ty: expr, $diag: expr) => {
require!($ty.is_simd(), "expected SIMD {} type, found non-SIMD `{}`", $position, $ty) require!($ty.is_simd(), $diag)
}; };
} }
@ -881,7 +861,11 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
let arg_tys = sig.inputs(); let arg_tys = sig.inputs();
if name == sym::simd_select_bitmask { if name == sym::simd_select_bitmask {
require_simd!(arg_tys[1], "argument"); require_simd!(
arg_tys[1],
InvalidMonomorphization::SimdArgument { span, name, ty: arg_tys[1] }
);
let (len, _) = arg_tys[1].simd_size_and_type(bx.tcx()); let (len, _) = arg_tys[1].simd_size_and_type(bx.tcx());
let expected_int_bits = (len.max(8) - 1).next_power_of_two(); let expected_int_bits = (len.max(8) - 1).next_power_of_two();
@ -902,12 +886,13 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
let ptr = bx.pointercast(place.llval, bx.cx.type_ptr_to(int_ty)); let ptr = bx.pointercast(place.llval, bx.cx.type_ptr_to(int_ty));
bx.load(int_ty, ptr, Align::ONE) bx.load(int_ty, ptr, Align::ONE)
} }
_ => return_error!( _ => return_error!(InvalidMonomorphization::InvalidBitmask {
"invalid bitmask `{}`, expected `u{}` or `[u8; {}]`", span,
name,
mask_ty, mask_ty,
expected_int_bits, expected_int_bits,
expected_bytes expected_bytes
), }),
}; };
let i1 = bx.type_i1(); let i1 = bx.type_i1();
@ -919,7 +904,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
} }
// every intrinsic below takes a SIMD vector as its first argument // every intrinsic below takes a SIMD vector as its first argument
require_simd!(arg_tys[0], "input"); require_simd!(arg_tys[0], InvalidMonomorphization::SimdInput { span, name, ty: arg_tys[0] });
let in_ty = arg_tys[0]; let in_ty = arg_tys[0];
let comparison = match name { let comparison = match name {
@ -934,23 +919,24 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
let (in_len, in_elem) = arg_tys[0].simd_size_and_type(bx.tcx()); let (in_len, in_elem) = arg_tys[0].simd_size_and_type(bx.tcx());
if let Some(cmp_op) = comparison { if let Some(cmp_op) = comparison {
require_simd!(ret_ty, "return"); require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx()); let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx());
require!( require!(
in_len == out_len, in_len == out_len,
"expected return type with length {} (same as input type `{}`), \ InvalidMonomorphization::ReturnLengthInputType {
found `{}` with length {}", span,
name,
in_len, in_len,
in_ty, in_ty,
ret_ty, ret_ty,
out_len out_len
}
); );
require!( require!(
bx.type_kind(bx.element_type(llret_ty)) == TypeKind::Integer, bx.type_kind(bx.element_type(llret_ty)) == TypeKind::Integer,
"expected return type with integer elements, found `{}` with non-integer `{}`", InvalidMonomorphization::ReturnIntegerType { span, name, ret_ty, out_ty }
ret_ty,
out_ty
); );
return Ok(compare_simd_types( return Ok(compare_simd_types(
@ -975,10 +961,11 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
span_bug!(span, "could not evaluate shuffle index array length") span_bug!(span, "could not evaluate shuffle index array length")
}) })
} }
_ => return_error!( _ => return_error!(InvalidMonomorphization::SimdShuffle {
"simd_shuffle index must be an array of `u32`, got `{}`", span,
args[2].layout.ty name,
), ty: args[2].layout.ty
}),
} }
} else { } else {
stripped.parse().unwrap_or_else(|_| { stripped.parse().unwrap_or_else(|_| {
@ -986,23 +973,15 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
}) })
}; };
require_simd!(ret_ty, "return"); require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx()); let (out_len, out_ty) = ret_ty.simd_size_and_type(bx.tcx());
require!( require!(
out_len == n, out_len == n,
"expected return type of length {}, found `{}` with length {}", InvalidMonomorphization::ReturnLength { span, name, in_len: n, ret_ty, out_len }
n,
ret_ty,
out_len
); );
require!( require!(
in_elem == out_ty, in_elem == out_ty,
"expected return element type `{}` (element of input `{}`), \ InvalidMonomorphization::ReturnElement { span, name, in_elem, in_ty, ret_ty, out_ty }
found `{}` with element type `{}`",
in_elem,
in_ty,
ret_ty,
out_ty
); );
let total_len = u128::from(in_len) * 2; let total_len = u128::from(in_len) * 2;
@ -1015,15 +994,20 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
let val = bx.const_get_elt(vector, i as u64); let val = bx.const_get_elt(vector, i as u64);
match bx.const_to_opt_u128(val, true) { match bx.const_to_opt_u128(val, true) {
None => { None => {
emit_error!("shuffle index #{} is not a constant", arg_idx); bx.sess().emit_err(InvalidMonomorphization::ShuffleIndexNotConstant {
span,
name,
arg_idx,
});
None None
} }
Some(idx) if idx >= total_len => { Some(idx) if idx >= total_len => {
emit_error!( bx.sess().emit_err(InvalidMonomorphization::ShuffleIndexOutOfBounds {
"shuffle index #{} is out of bounds (limit {})", span,
name,
arg_idx, arg_idx,
total_len total_len,
); });
None None
} }
Some(idx) => Some(bx.const_i32(idx as i32)), Some(idx) => Some(bx.const_i32(idx as i32)),
@ -1044,10 +1028,13 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
if name == sym::simd_insert { if name == sym::simd_insert {
require!( require!(
in_elem == arg_tys[2], in_elem == arg_tys[2],
"expected inserted type `{}` (element of input `{}`), found `{}`", InvalidMonomorphization::InsertedType {
span,
name,
in_elem, in_elem,
in_ty, in_ty,
arg_tys[2] out_ty: arg_tys[2]
}
); );
return Ok(bx.insert_element( return Ok(bx.insert_element(
args[0].immediate(), args[0].immediate(),
@ -1058,10 +1045,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
if name == sym::simd_extract { if name == sym::simd_extract {
require!( require!(
ret_ty == in_elem, ret_ty == in_elem,
"expected return type `{}` (element of input `{}`), found `{}`", InvalidMonomorphization::ReturnType { span, name, in_elem, in_ty, ret_ty }
in_elem,
in_ty,
ret_ty
); );
return Ok(bx.extract_element(args[0].immediate(), args[1].immediate())); return Ok(bx.extract_element(args[0].immediate(), args[1].immediate()));
} }
@ -1069,17 +1053,18 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
if name == sym::simd_select { if name == sym::simd_select {
let m_elem_ty = in_elem; let m_elem_ty = in_elem;
let m_len = in_len; let m_len = in_len;
require_simd!(arg_tys[1], "argument"); require_simd!(
arg_tys[1],
InvalidMonomorphization::SimdArgument { span, name, ty: arg_tys[1] }
);
let (v_len, _) = arg_tys[1].simd_size_and_type(bx.tcx()); let (v_len, _) = arg_tys[1].simd_size_and_type(bx.tcx());
require!( require!(
m_len == v_len, m_len == v_len,
"mismatched lengths: mask length `{}` != other vector length `{}`", InvalidMonomorphization::MismatchedLengths { span, name, m_len, v_len }
m_len,
v_len
); );
match m_elem_ty.kind() { match m_elem_ty.kind() {
ty::Int(_) => {} ty::Int(_) => {}
_ => return_error!("mask element type is `{}`, expected `i_`", m_elem_ty), _ => return_error!(InvalidMonomorphization::MaskType { span, name, ty: m_elem_ty }),
} }
// truncate the mask to a vector of i1s // truncate the mask to a vector of i1s
let i1 = bx.type_i1(); let i1 = bx.type_i1();
@ -1111,11 +1096,12 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
args[0].immediate(), args[0].immediate(),
i.bit_width().unwrap_or_else(|| bx.data_layout().pointer_size.bits()), i.bit_width().unwrap_or_else(|| bx.data_layout().pointer_size.bits()),
), ),
_ => return_error!( _ => return_error!(InvalidMonomorphization::VectorArgument {
"vector argument `{}`'s element type `{}`, expected integer element type", span,
name,
in_ty, in_ty,
in_elem in_elem
), }),
}; };
// Shift the MSB to the right by "in_elem_bitwidth - 1" into the first bit position. // Shift the MSB to the right by "in_elem_bitwidth - 1" into the first bit position.
@ -1150,12 +1136,13 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
let ptr = bx.pointercast(ptr, bx.cx.type_ptr_to(array_ty)); let ptr = bx.pointercast(ptr, bx.cx.type_ptr_to(array_ty));
return Ok(bx.load(array_ty, ptr, Align::ONE)); return Ok(bx.load(array_ty, ptr, Align::ONE));
} }
_ => return_error!( _ => return_error!(InvalidMonomorphization::CannotReturn {
"cannot return `{}`, expected `u{}` or `[u8; {}]`", span,
name,
ret_ty, ret_ty,
expected_int_bits, expected_int_bits,
expected_bytes expected_bytes
), }),
} }
} }
@ -1168,25 +1155,11 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
span: Span, span: Span,
args: &[OperandRef<'tcx, &'ll Value>], args: &[OperandRef<'tcx, &'ll Value>],
) -> Result<&'ll Value, ()> { ) -> Result<&'ll Value, ()> {
#[allow(unused_macro_rules)]
macro_rules! emit_error {
($msg: tt) => {
emit_error!($msg, )
};
($msg: tt, $($fmt: tt)*) => {
span_invalid_monomorphization_error(
bx.sess(), span,
&format!(concat!("invalid monomorphization of `{}` intrinsic: ", $msg),
name, $($fmt)*));
}
}
macro_rules! return_error { macro_rules! return_error {
($($fmt: tt)*) => { ($diag: expr) => {{
{ bx.sess().emit_err($diag);
emit_error!($($fmt)*);
return Err(()); return Err(());
} }};
}
} }
let (elem_ty_str, elem_ty) = if let ty::Float(f) = in_elem.kind() { let (elem_ty_str, elem_ty) = if let ty::Float(f) = in_elem.kind() {
@ -1194,16 +1167,15 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
match f.bit_width() { match f.bit_width() {
32 => ("f32", elem_ty), 32 => ("f32", elem_ty),
64 => ("f64", elem_ty), 64 => ("f64", elem_ty),
_ => { _ => return_error!(InvalidMonomorphization::FloatingPointVector {
return_error!( span,
"unsupported element type `{}` of floating-point vector `{}`", name,
f.name_str(), f_ty: *f,
in_ty in_ty,
); }),
}
} }
} else { } else {
return_error!("`{}` is not a floating-point type", in_ty); return_error!(InvalidMonomorphization::FloatingPointType { span, name, in_ty });
}; };
let vec_ty = bx.type_vector(elem_ty, in_len); let vec_ty = bx.type_vector(elem_ty, in_len);
@ -1225,7 +1197,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
sym::simd_fsqrt => ("sqrt", bx.type_func(&[vec_ty], vec_ty)), sym::simd_fsqrt => ("sqrt", bx.type_func(&[vec_ty], vec_ty)),
sym::simd_round => ("round", bx.type_func(&[vec_ty], vec_ty)), sym::simd_round => ("round", bx.type_func(&[vec_ty], vec_ty)),
sym::simd_trunc => ("trunc", bx.type_func(&[vec_ty], vec_ty)), sym::simd_trunc => ("trunc", bx.type_func(&[vec_ty], vec_ty)),
_ => return_error!("unrecognized intrinsic `{}`", name), _ => return_error!(InvalidMonomorphization::UnrecognizedIntrinsic { span, name }),
}; };
let llvm_name = &format!("llvm.{0}.v{1}{2}", intr_name, in_len, elem_ty_str); let llvm_name = &format!("llvm.{0}.v{1}{2}", intr_name, in_len, elem_ty_str);
let f = bx.declare_cfn(llvm_name, llvm::UnnamedAddr::No, fn_ty); let f = bx.declare_cfn(llvm_name, llvm::UnnamedAddr::No, fn_ty);
@ -1319,37 +1291,48 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
// * M: any integer width is supported, will be truncated to i1 // * M: any integer width is supported, will be truncated to i1
// All types must be simd vector types // All types must be simd vector types
require_simd!(in_ty, "first"); require_simd!(in_ty, InvalidMonomorphization::SimdFirst { span, name, ty: in_ty });
require_simd!(arg_tys[1], "second"); require_simd!(
require_simd!(arg_tys[2], "third"); arg_tys[1],
require_simd!(ret_ty, "return"); InvalidMonomorphization::SimdSecond { span, name, ty: arg_tys[1] }
);
require_simd!(
arg_tys[2],
InvalidMonomorphization::SimdThird { span, name, ty: arg_tys[2] }
);
require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
// Of the same length: // Of the same length:
let (out_len, _) = arg_tys[1].simd_size_and_type(bx.tcx()); let (out_len, _) = arg_tys[1].simd_size_and_type(bx.tcx());
let (out_len2, _) = arg_tys[2].simd_size_and_type(bx.tcx()); let (out_len2, _) = arg_tys[2].simd_size_and_type(bx.tcx());
require!( require!(
in_len == out_len, in_len == out_len,
"expected {} argument with length {} (same as input type `{}`), \ InvalidMonomorphization::SecondArgumentLength {
found `{}` with length {}", span,
"second", name,
in_len, in_len,
in_ty, in_ty,
arg_tys[1], arg_ty: arg_tys[1],
out_len out_len
}
); );
require!( require!(
in_len == out_len2, in_len == out_len2,
"expected {} argument with length {} (same as input type `{}`), \ InvalidMonomorphization::ThirdArgumentLength {
found `{}` with length {}", span,
"third", name,
in_len, in_len,
in_ty, in_ty,
arg_tys[2], arg_ty: arg_tys[2],
out_len2 out_len: out_len2
}
); );
// The return type must match the first argument type // The return type must match the first argument type
require!(ret_ty == in_ty, "expected return type `{}`, found `{}`", in_ty, ret_ty); require!(
ret_ty == in_ty,
InvalidMonomorphization::ExpectedReturnType { span, name, in_ty, ret_ty }
);
// This counts how many pointers // This counts how many pointers
fn ptr_count(t: Ty<'_>) -> usize { fn ptr_count(t: Ty<'_>) -> usize {
@ -1376,15 +1359,15 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
_ => { _ => {
require!( require!(
false, false,
"expected element type `{}` of second argument `{}` \ InvalidMonomorphization::ExpectedElementType {
to be a pointer to the element type `{}` of the first \ span,
argument `{}`, found `{}` != `*_ {}`", name,
element_ty1, expected_element: element_ty1,
arg_tys[1], second_arg: arg_tys[1],
in_elem, in_elem,
in_ty, in_ty,
element_ty1, mutability: ExpectedPointerMutability::Not,
in_elem }
); );
unreachable!(); unreachable!();
} }
@ -1400,10 +1383,12 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
_ => { _ => {
require!( require!(
false, false,
"expected element type `{}` of third argument `{}` \ InvalidMonomorphization::ThirdArgElementType {
to be a signed integer type", span,
element_ty2, name,
arg_tys[2] expected_element: element_ty2,
third_arg: arg_tys[2]
}
); );
} }
} }
@ -1452,32 +1437,40 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
// * M: any integer width is supported, will be truncated to i1 // * M: any integer width is supported, will be truncated to i1
// All types must be simd vector types // All types must be simd vector types
require_simd!(in_ty, "first"); require_simd!(in_ty, InvalidMonomorphization::SimdFirst { span, name, ty: in_ty });
require_simd!(arg_tys[1], "second"); require_simd!(
require_simd!(arg_tys[2], "third"); arg_tys[1],
InvalidMonomorphization::SimdSecond { span, name, ty: arg_tys[1] }
);
require_simd!(
arg_tys[2],
InvalidMonomorphization::SimdThird { span, name, ty: arg_tys[2] }
);
// Of the same length: // Of the same length:
let (element_len1, _) = arg_tys[1].simd_size_and_type(bx.tcx()); let (element_len1, _) = arg_tys[1].simd_size_and_type(bx.tcx());
let (element_len2, _) = arg_tys[2].simd_size_and_type(bx.tcx()); let (element_len2, _) = arg_tys[2].simd_size_and_type(bx.tcx());
require!( require!(
in_len == element_len1, in_len == element_len1,
"expected {} argument with length {} (same as input type `{}`), \ InvalidMonomorphization::SecondArgumentLength {
found `{}` with length {}", span,
"second", name,
in_len, in_len,
in_ty, in_ty,
arg_tys[1], arg_ty: arg_tys[1],
element_len1 out_len: element_len1
}
); );
require!( require!(
in_len == element_len2, in_len == element_len2,
"expected {} argument with length {} (same as input type `{}`), \ InvalidMonomorphization::ThirdArgumentLength {
found `{}` with length {}", span,
"third", name,
in_len, in_len,
in_ty, in_ty,
arg_tys[2], arg_ty: arg_tys[2],
element_len2 out_len: element_len2
}
); );
// This counts how many pointers // This counts how many pointers
@ -1508,15 +1501,15 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
_ => { _ => {
require!( require!(
false, false,
"expected element type `{}` of second argument `{}` \ InvalidMonomorphization::ExpectedElementType {
to be a pointer to the element type `{}` of the first \ span,
argument `{}`, found `{}` != `*mut {}`", name,
element_ty1, expected_element: element_ty1,
arg_tys[1], second_arg: arg_tys[1],
in_elem, in_elem,
in_ty, in_ty,
element_ty1, mutability: ExpectedPointerMutability::Mut,
in_elem }
); );
unreachable!(); unreachable!();
} }
@ -1531,10 +1524,12 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
_ => { _ => {
require!( require!(
false, false,
"expected element type `{}` of third argument `{}` \ InvalidMonomorphization::ThirdArgElementType {
be a signed integer type", span,
element_ty2, name,
arg_tys[2] expected_element: element_ty2,
third_arg: arg_tys[2]
}
); );
} }
} }
@ -1581,10 +1576,7 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
if name == sym::$name { if name == sym::$name {
require!( require!(
ret_ty == in_elem, ret_ty == in_elem,
"expected return type `{}` (element of input `{}`), found `{}`", InvalidMonomorphization::ReturnType { span, name, in_elem, in_ty, ret_ty }
in_elem,
in_ty,
ret_ty
); );
return match in_elem.kind() { return match in_elem.kind() {
ty::Int(_) | ty::Uint(_) => { ty::Int(_) | ty::Uint(_) => {
@ -1607,25 +1599,28 @@ fn generic_simd_intrinsic<'ll, 'tcx>(
32 => bx.const_real(bx.type_f32(), $identity), 32 => bx.const_real(bx.type_f32(), $identity),
64 => bx.const_real(bx.type_f64(), $identity), 64 => bx.const_real(bx.type_f64(), $identity),
v => return_error!( v => return_error!(
r#" InvalidMonomorphization::UnsupportedSymbolOfSize {
unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#, span,
sym::$name, name,
symbol: sym::$name,
in_ty, in_ty,
in_elem, in_elem,
v, size: v,
ret_ty ret_ty
}
), ),
} }
}; };
Ok(bx.$float_reduce(acc, args[0].immediate())) Ok(bx.$float_reduce(acc, args[0].immediate()))
} }
_ => return_error!( _ => return_error!(InvalidMonomorphization::UnsupportedSymbol {
"unsupported {} from `{}` with element `{}` to `{}`", span,
sym::$name, name,
symbol: sym::$name,
in_ty, in_ty,
in_elem, in_elem,
ret_ty ret_ty
), }),
}; };
} }
}; };
@ -1653,22 +1648,20 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
if name == sym::$name { if name == sym::$name {
require!( require!(
ret_ty == in_elem, ret_ty == in_elem,
"expected return type `{}` (element of input `{}`), found `{}`", InvalidMonomorphization::ReturnType { span, name, in_elem, in_ty, ret_ty }
in_elem,
in_ty,
ret_ty
); );
return match in_elem.kind() { return match in_elem.kind() {
ty::Int(_i) => Ok(bx.$int_red(args[0].immediate(), true)), ty::Int(_i) => Ok(bx.$int_red(args[0].immediate(), true)),
ty::Uint(_u) => Ok(bx.$int_red(args[0].immediate(), false)), ty::Uint(_u) => Ok(bx.$int_red(args[0].immediate(), false)),
ty::Float(_f) => Ok(bx.$float_red(args[0].immediate())), ty::Float(_f) => Ok(bx.$float_red(args[0].immediate())),
_ => return_error!( _ => return_error!(InvalidMonomorphization::UnsupportedSymbol {
"unsupported {} from `{}` with element `{}` to `{}`", span,
sym::$name, name,
symbol: sym::$name,
in_ty, in_ty,
in_elem, in_elem,
ret_ty ret_ty
), }),
}; };
} }
}; };
@ -1686,22 +1679,20 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
let input = if !$boolean { let input = if !$boolean {
require!( require!(
ret_ty == in_elem, ret_ty == in_elem,
"expected return type `{}` (element of input `{}`), found `{}`", InvalidMonomorphization::ReturnType { span, name, in_elem, in_ty, ret_ty }
in_elem,
in_ty,
ret_ty
); );
args[0].immediate() args[0].immediate()
} else { } else {
match in_elem.kind() { match in_elem.kind() {
ty::Int(_) | ty::Uint(_) => {} ty::Int(_) | ty::Uint(_) => {}
_ => return_error!( _ => return_error!(InvalidMonomorphization::UnsupportedSymbol {
"unsupported {} from `{}` with element `{}` to `{}`", span,
sym::$name, name,
symbol: sym::$name,
in_ty, in_ty,
in_elem, in_elem,
ret_ty ret_ty
), }),
} }
// boolean reductions operate on vectors of i1s: // boolean reductions operate on vectors of i1s:
@ -1714,13 +1705,14 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
let r = bx.$red(input); let r = bx.$red(input);
Ok(if !$boolean { r } else { bx.zext(r, bx.type_bool()) }) Ok(if !$boolean { r } else { bx.zext(r, bx.type_bool()) })
} }
_ => return_error!( _ => return_error!(InvalidMonomorphization::UnsupportedSymbol {
"unsupported {} from `{}` with element `{}` to `{}`", span,
sym::$name, name,
symbol: sym::$name,
in_ty, in_ty,
in_elem, in_elem,
ret_ty ret_ty
), }),
}; };
} }
}; };
@ -1733,16 +1725,18 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
bitwise_red!(simd_reduce_any: vector_reduce_or, true); bitwise_red!(simd_reduce_any: vector_reduce_or, true);
if name == sym::simd_cast_ptr { if name == sym::simd_cast_ptr {
require_simd!(ret_ty, "return"); require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx()); let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
require!( require!(
in_len == out_len, in_len == out_len,
"expected return type with length {} (same as input type `{}`), \ InvalidMonomorphization::ReturnLengthInputType {
found `{}` with length {}", span,
name,
in_len, in_len,
in_ty, in_ty,
ret_ty, ret_ty,
out_len out_len
}
); );
match in_elem.kind() { match in_elem.kind() {
@ -1751,9 +1745,14 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
bx.tcx.normalize_erasing_regions(ty::ParamEnv::reveal_all(), ty) bx.tcx.normalize_erasing_regions(ty::ParamEnv::reveal_all(), ty)
}); });
assert!(!check_sized); // we are in codegen, so we shouldn't see these types assert!(!check_sized); // we are in codegen, so we shouldn't see these types
require!(metadata.is_unit(), "cannot cast fat pointer `{}`", in_elem) require!(
metadata.is_unit(),
InvalidMonomorphization::CastFatPointer { span, name, ty: in_elem }
);
}
_ => {
return_error!(InvalidMonomorphization::ExpectedPointer { span, name, ty: in_elem })
} }
_ => return_error!("expected pointer, got `{}`", in_elem),
} }
match out_elem.kind() { match out_elem.kind() {
ty::RawPtr(p) => { ty::RawPtr(p) => {
@ -1761,9 +1760,14 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
bx.tcx.normalize_erasing_regions(ty::ParamEnv::reveal_all(), ty) bx.tcx.normalize_erasing_regions(ty::ParamEnv::reveal_all(), ty)
}); });
assert!(!check_sized); // we are in codegen, so we shouldn't see these types assert!(!check_sized); // we are in codegen, so we shouldn't see these types
require!(metadata.is_unit(), "cannot cast to fat pointer `{}`", out_elem) require!(
metadata.is_unit(),
InvalidMonomorphization::CastFatPointer { span, name, ty: out_elem }
);
}
_ => {
return_error!(InvalidMonomorphization::ExpectedPointer { span, name, ty: out_elem })
} }
_ => return_error!("expected pointer, got `{}`", out_elem),
} }
if in_elem == out_elem { if in_elem == out_elem {
@ -1774,66 +1778,76 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
} }
if name == sym::simd_expose_addr { if name == sym::simd_expose_addr {
require_simd!(ret_ty, "return"); require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx()); let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
require!( require!(
in_len == out_len, in_len == out_len,
"expected return type with length {} (same as input type `{}`), \ InvalidMonomorphization::ReturnLengthInputType {
found `{}` with length {}", span,
name,
in_len, in_len,
in_ty, in_ty,
ret_ty, ret_ty,
out_len out_len
}
); );
match in_elem.kind() { match in_elem.kind() {
ty::RawPtr(_) => {} ty::RawPtr(_) => {}
_ => return_error!("expected pointer, got `{}`", in_elem), _ => {
return_error!(InvalidMonomorphization::ExpectedPointer { span, name, ty: in_elem })
}
} }
match out_elem.kind() { match out_elem.kind() {
ty::Uint(ty::UintTy::Usize) => {} ty::Uint(ty::UintTy::Usize) => {}
_ => return_error!("expected `usize`, got `{}`", out_elem), _ => return_error!(InvalidMonomorphization::ExpectedUsize { span, name, ty: out_elem }),
} }
return Ok(bx.ptrtoint(args[0].immediate(), llret_ty)); return Ok(bx.ptrtoint(args[0].immediate(), llret_ty));
} }
if name == sym::simd_from_exposed_addr { if name == sym::simd_from_exposed_addr {
require_simd!(ret_ty, "return"); require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx()); let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
require!( require!(
in_len == out_len, in_len == out_len,
"expected return type with length {} (same as input type `{}`), \ InvalidMonomorphization::ReturnLengthInputType {
found `{}` with length {}", span,
name,
in_len, in_len,
in_ty, in_ty,
ret_ty, ret_ty,
out_len out_len
}
); );
match in_elem.kind() { match in_elem.kind() {
ty::Uint(ty::UintTy::Usize) => {} ty::Uint(ty::UintTy::Usize) => {}
_ => return_error!("expected `usize`, got `{}`", in_elem), _ => return_error!(InvalidMonomorphization::ExpectedUsize { span, name, ty: in_elem }),
} }
match out_elem.kind() { match out_elem.kind() {
ty::RawPtr(_) => {} ty::RawPtr(_) => {}
_ => return_error!("expected pointer, got `{}`", out_elem), _ => {
return_error!(InvalidMonomorphization::ExpectedPointer { span, name, ty: out_elem })
}
} }
return Ok(bx.inttoptr(args[0].immediate(), llret_ty)); return Ok(bx.inttoptr(args[0].immediate(), llret_ty));
} }
if name == sym::simd_cast || name == sym::simd_as { if name == sym::simd_cast || name == sym::simd_as {
require_simd!(ret_ty, "return"); require_simd!(ret_ty, InvalidMonomorphization::SimdReturn { span, name, ty: ret_ty });
let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx()); let (out_len, out_elem) = ret_ty.simd_size_and_type(bx.tcx());
require!( require!(
in_len == out_len, in_len == out_len,
"expected return type with length {} (same as input type `{}`), \ InvalidMonomorphization::ReturnLengthInputType {
found `{}` with length {}", span,
name,
in_len, in_len,
in_ty, in_ty,
ret_ty, ret_ty,
out_len out_len
}
); );
// casting cares about nominal type, not just structural type // casting cares about nominal type, not just structural type
if in_elem == out_elem { if in_elem == out_elem {
@ -1912,11 +1926,14 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
} }
require!( require!(
false, false,
"unsupported cast from `{}` with element `{}` to `{}` with element `{}`", InvalidMonomorphization::UnsupportedCast {
span,
name,
in_ty, in_ty,
in_elem, in_elem,
ret_ty, ret_ty,
out_elem out_elem
}
); );
} }
macro_rules! arith_binary { macro_rules! arith_binary {
@ -1928,10 +1945,10 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
})* })*
_ => {}, _ => {},
} }
require!(false, require!(
"unsupported operation on `{}` with element `{}`", false,
in_ty, InvalidMonomorphization::UnsupportedOperation { span, name, in_ty, in_elem }
in_elem) );
})* })*
} }
} }
@ -1959,10 +1976,10 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
})* })*
_ => {}, _ => {},
} }
require!(false, require!(
"unsupported operation on `{}` with element `{}`", false,
in_ty, InvalidMonomorphization::UnsupportedOperation { span, name, in_ty, in_elem }
in_elem) );
})* })*
} }
} }
@ -2000,12 +2017,12 @@ unsupported {} from `{}` with element `{}` of size `{}` to `{}`"#,
ty::Int(i) => (true, i.bit_width().unwrap_or(ptr_bits), bx.cx.type_int_from_ty(i)), ty::Int(i) => (true, i.bit_width().unwrap_or(ptr_bits), bx.cx.type_int_from_ty(i)),
ty::Uint(i) => (false, i.bit_width().unwrap_or(ptr_bits), bx.cx.type_uint_from_ty(i)), ty::Uint(i) => (false, i.bit_width().unwrap_or(ptr_bits), bx.cx.type_uint_from_ty(i)),
_ => { _ => {
return_error!( return_error!(InvalidMonomorphization::ExpectedVectorElementType {
"expected element type `{}` of vector type `{}` \ span,
to be a signed or unsigned integer type", name,
arg_tys[0].simd_size_and_type(bx.tcx()).1, expected_element: arg_tys[0].simd_size_and_type(bx.tcx()).1,
arg_tys[0] vector_type: arg_tys[0]
); });
} }
}; };
let llvm_intrinsic = &format!( let llvm_intrinsic = &format!(

1
compiler/rustc_codegen_ssa/Cargo.toml
View File

@ -27,6 +27,7 @@ rustc_arena = { path = "../rustc_arena" }
rustc_ast = { path = "../rustc_ast" } rustc_ast = { path = "../rustc_ast" }
rustc_span = { path = "../rustc_span" } rustc_span = { path = "../rustc_span" }
rustc_middle = { path = "../rustc_middle" } rustc_middle = { path = "../rustc_middle" }
rustc_type_ir = { path = "../rustc_type_ir" }
rustc_attr = { path = "../rustc_attr" } rustc_attr = { path = "../rustc_attr" }
rustc_symbol_mangling = { path = "../rustc_symbol_mangling" } rustc_symbol_mangling = { path = "../rustc_symbol_mangling" }
rustc_data_structures = { path = "../rustc_data_structures" } rustc_data_structures = { path = "../rustc_data_structures" }

4
compiler/rustc_codegen_ssa/src/back/link.rs
View File

@ -2616,7 +2616,7 @@ fn add_static_crate<'a>(
sess.target.no_builtins || !codegen_results.crate_info.is_no_builtins.contains(&cnum); sess.target.no_builtins || !codegen_results.crate_info.is_no_builtins.contains(&cnum);
let mut archive = archive_builder_builder.new_archive_builder(sess); let mut archive = archive_builder_builder.new_archive_builder(sess);
if let Err(e) = archive.add_archive( if let Err(error) = archive.add_archive(
cratepath, cratepath,
Box::new(move |f| { Box::new(move |f| {
if f == METADATA_FILENAME { if f == METADATA_FILENAME {
@ -2656,7 +2656,7 @@ fn add_static_crate<'a>(
false false
}), }),
) { ) {
sess.fatal(&format!("failed to build archive from rlib: {}", e)); sess.emit_fatal(errors::RlibArchiveBuildFailure { error });
} }
if archive.build(&dst) { if archive.build(&dst) {
link_upstream(&dst); link_upstream(&dst);

16
compiler/rustc_codegen_ssa/src/base.rs
View File

@ -5,6 +5,7 @@ use crate::back::write::{
submit_post_lto_module_to_llvm, submit_pre_lto_module_to_llvm, ComputedLtoType, OngoingCodegen, submit_post_lto_module_to_llvm, submit_pre_lto_module_to_llvm, ComputedLtoType, OngoingCodegen,
}; };
use crate::common::{IntPredicate, RealPredicate, TypeKind}; use crate::common::{IntPredicate, RealPredicate, TypeKind};
use crate::errors;
use crate::meth; use crate::meth;
use crate::mir; use crate::mir;
use crate::mir::operand::OperandValue; use crate::mir::operand::OperandValue;
@ -451,10 +452,7 @@ pub fn maybe_create_entry_wrapper<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
let Some(llfn) = cx.declare_c_main(llfty) else { let Some(llfn) = cx.declare_c_main(llfty) else {
// FIXME: We should be smart and show a better diagnostic here. // FIXME: We should be smart and show a better diagnostic here.
let span = cx.tcx().def_span(rust_main_def_id); let span = cx.tcx().def_span(rust_main_def_id);
cx.sess() cx.sess().emit_err(errors::MultipleMainFunctions { span });
.struct_span_err(span, "entry symbol `main` declared multiple times")
.help("did you use `#[no_mangle]` on `fn main`? Use `#[start]` instead")
.emit();
cx.sess().abort_if_errors(); cx.sess().abort_if_errors();
bug!(); bug!();
}; };
@ -595,8 +593,8 @@ pub fn codegen_crate<B: ExtraBackendMethods>(
&metadata, &metadata,
&exported_symbols::metadata_symbol_name(tcx), &exported_symbols::metadata_symbol_name(tcx),
); );
if let Err(err) = std::fs::write(&file_name, data) { if let Err(error) = std::fs::write(&file_name, data) {
tcx.sess.fatal(&format!("error writing metadata object file: {}", err)); tcx.sess.emit_fatal(errors::MetadataObjectFileWrite { error });
} }
Some(CompiledModule { Some(CompiledModule {
name: metadata_cgu_name, name: metadata_cgu_name,
@ -815,11 +813,7 @@ impl CrateInfo {
let subsystem = tcx.sess.first_attr_value_str_by_name(crate_attrs, sym::windows_subsystem); let subsystem = tcx.sess.first_attr_value_str_by_name(crate_attrs, sym::windows_subsystem);
let windows_subsystem = subsystem.map(|subsystem| { let windows_subsystem = subsystem.map(|subsystem| {
if subsystem != sym::windows && subsystem != sym::console { if subsystem != sym::windows && subsystem != sym::console {
tcx.sess.fatal(&format!( tcx.sess.emit_fatal(errors::InvalidWindowsSubsystem { subsystem });
"invalid windows subsystem `{}`, only \
`windows` and `console` are allowed",
subsystem
));
} }
subsystem.to_string() subsystem.to_string()
}); });

6
compiler/rustc_codegen_ssa/src/common.rs
View File

@ -1,10 +1,8 @@
#![allow(non_camel_case_types)] #![allow(non_camel_case_types)]
use rustc_errors::struct_span_err;
use rustc_hir::LangItem; use rustc_hir::LangItem;
use rustc_middle::mir::interpret::ConstValue; use rustc_middle::mir::interpret::ConstValue;
use rustc_middle::ty::{self, layout::TyAndLayout, Ty, TyCtxt}; use rustc_middle::ty::{self, layout::TyAndLayout, Ty, TyCtxt};
use rustc_session::Session;
use rustc_span::Span; use rustc_span::Span;
use crate::base; use crate::base;
@ -193,10 +191,6 @@ pub fn shift_mask_val<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
} }
} }
pub fn span_invalid_monomorphization_error(a: &Session, b: Span, c: &str) {
struct_span_err!(a, b, E0511, "{}", c).emit();
}
pub fn asm_const_to_str<'tcx>( pub fn asm_const_to_str<'tcx>(
tcx: TyCtxt<'tcx>, tcx: TyCtxt<'tcx>,
sp: Span, sp: Span,

1
compiler/rustc_codegen_ssa/src/debuginfo/type_names.rs
View File

@ -93,6 +93,7 @@ fn push_debuginfo_type_name<'tcx>(
Err(e) => { Err(e) => {
// Computing the layout can still fail here, e.g. if the target architecture // Computing the layout can still fail here, e.g. if the target architecture
// cannot represent the type. See https://github.com/rust-lang/rust/issues/94961. // cannot represent the type. See https://github.com/rust-lang/rust/issues/94961.
// FIXME: migrate once `rustc_middle::mir::interpret::InterpError` is translatable.
tcx.sess.fatal(&format!("{}", e)); tcx.sess.fatal(&format!("{}", e));
} }
} }

431
compiler/rustc_codegen_ssa/src/errors.rs
View File

@ -6,7 +6,9 @@ use rustc_errors::{
IntoDiagnosticArg, IntoDiagnosticArg,
}; };
use rustc_macros::Diagnostic; use rustc_macros::Diagnostic;
use rustc_middle::ty::Ty;
use rustc_span::{Span, Symbol}; use rustc_span::{Span, Symbol};
use rustc_type_ir::FloatTy;
use std::borrow::Cow; use std::borrow::Cow;
use std::io::Error; use std::io::Error;
use std::path::{Path, PathBuf}; use std::path::{Path, PathBuf};
@ -549,3 +551,432 @@ pub struct ExpectedUsedSymbol {
#[primary_span] #[primary_span]
pub span: Span, pub span: Span,
} }
#[derive(Diagnostic)]
#[diag(codegen_ssa_multiple_main_functions)]
#[help]
pub struct MultipleMainFunctions {
#[primary_span]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(codegen_ssa_metadata_object_file_write)]
pub struct MetadataObjectFileWrite {
pub error: Error,
}
#[derive(Diagnostic)]
#[diag(codegen_ssa_invalid_windows_subsystem)]
pub struct InvalidWindowsSubsystem {
pub subsystem: Symbol,
}
#[derive(Diagnostic)]
#[diag(codegen_ssa_erroneous_constant)]
pub struct ErroneousConstant {
#[primary_span]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(codegen_ssa_polymorphic_constant_too_generic)]
pub struct PolymorphicConstantTooGeneric {
#[primary_span]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(codegen_ssa_shuffle_indices_evaluation)]
pub struct ShuffleIndicesEvaluation {
#[primary_span]
pub span: Span,
}
#[derive(Diagnostic)]
#[diag(codegen_ssa_missing_memory_ordering)]
pub struct MissingMemoryOrdering;
#[derive(Diagnostic)]
#[diag(codegen_ssa_unknown_atomic_ordering)]
pub struct UnknownAtomicOrdering;
#[derive(Diagnostic)]
#[diag(codegen_ssa_atomic_compare_exchange)]
pub struct AtomicCompareExchange;
#[derive(Diagnostic)]
#[diag(codegen_ssa_unknown_atomic_operation)]
pub struct UnknownAtomicOperation;
#[derive(Diagnostic)]
pub enum InvalidMonomorphization<'tcx> {
#[diag(codegen_ssa_invalid_monomorphization_basic_integer_type, code = "E0511")]
BasicIntegerType {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_basic_float_type, code = "E0511")]
BasicFloatType {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_float_to_int_unchecked, code = "E0511")]
FloatToIntUnchecked {
#[primary_span]
span: Span,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_floating_point_vector, code = "E0511")]
FloatingPointVector {
#[primary_span]
span: Span,
name: Symbol,
f_ty: FloatTy,
in_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_floating_point_type, code = "E0511")]
FloatingPointType {
#[primary_span]
span: Span,
name: Symbol,
in_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_unrecognized_intrinsic, code = "E0511")]
UnrecognizedIntrinsic {
#[primary_span]
span: Span,
name: Symbol,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_argument, code = "E0511")]
SimdArgument {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_input, code = "E0511")]
SimdInput {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_first, code = "E0511")]
SimdFirst {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_second, code = "E0511")]
SimdSecond {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_third, code = "E0511")]
SimdThird {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_return, code = "E0511")]
SimdReturn {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_invalid_bitmask, code = "E0511")]
InvalidBitmask {
#[primary_span]
span: Span,
name: Symbol,
mask_ty: Ty<'tcx>,
expected_int_bits: u64,
expected_bytes: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_return_length_input_type, code = "E0511")]
ReturnLengthInputType {
#[primary_span]
span: Span,
name: Symbol,
in_len: u64,
in_ty: Ty<'tcx>,
ret_ty: Ty<'tcx>,
out_len: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_second_argument_length, code = "E0511")]
SecondArgumentLength {
#[primary_span]
span: Span,
name: Symbol,
in_len: u64,
in_ty: Ty<'tcx>,
arg_ty: Ty<'tcx>,
out_len: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_third_argument_length, code = "E0511")]
ThirdArgumentLength {
#[primary_span]
span: Span,
name: Symbol,
in_len: u64,
in_ty: Ty<'tcx>,
arg_ty: Ty<'tcx>,
out_len: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_return_integer_type, code = "E0511")]
ReturnIntegerType {
#[primary_span]
span: Span,
name: Symbol,
ret_ty: Ty<'tcx>,
out_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_simd_shuffle, code = "E0511")]
SimdShuffle {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_return_length, code = "E0511")]
ReturnLength {
#[primary_span]
span: Span,
name: Symbol,
in_len: u64,
ret_ty: Ty<'tcx>,
out_len: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_return_element, code = "E0511")]
ReturnElement {
#[primary_span]
span: Span,
name: Symbol,
in_elem: Ty<'tcx>,
in_ty: Ty<'tcx>,
ret_ty: Ty<'tcx>,
out_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_shuffle_index_not_constant, code = "E0511")]
ShuffleIndexNotConstant {
#[primary_span]
span: Span,
name: Symbol,
arg_idx: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_shuffle_index_out_of_bounds, code = "E0511")]
ShuffleIndexOutOfBounds {
#[primary_span]
span: Span,
name: Symbol,
arg_idx: u64,
total_len: u128,
},
#[diag(codegen_ssa_invalid_monomorphization_inserted_type, code = "E0511")]
InsertedType {
#[primary_span]
span: Span,
name: Symbol,
in_elem: Ty<'tcx>,
in_ty: Ty<'tcx>,
out_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_return_type, code = "E0511")]
ReturnType {
#[primary_span]
span: Span,
name: Symbol,
in_elem: Ty<'tcx>,
in_ty: Ty<'tcx>,
ret_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_expected_return_type, code = "E0511")]
ExpectedReturnType {
#[primary_span]
span: Span,
name: Symbol,
in_ty: Ty<'tcx>,
ret_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_mismatched_lengths, code = "E0511")]
MismatchedLengths {
#[primary_span]
span: Span,
name: Symbol,
m_len: u64,
v_len: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_mask_type, code = "E0511")]
MaskType {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_vector_argument, code = "E0511")]
VectorArgument {
#[primary_span]
span: Span,
name: Symbol,
in_ty: Ty<'tcx>,
in_elem: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_cannot_return, code = "E0511")]
CannotReturn {
#[primary_span]
span: Span,
name: Symbol,
ret_ty: Ty<'tcx>,
expected_int_bits: u64,
expected_bytes: u64,
},
#[diag(codegen_ssa_invalid_monomorphization_expected_element_type, code = "E0511")]
ExpectedElementType {
#[primary_span]
span: Span,
name: Symbol,
expected_element: Ty<'tcx>,
second_arg: Ty<'tcx>,
in_elem: Ty<'tcx>,
in_ty: Ty<'tcx>,
mutability: ExpectedPointerMutability,
},
#[diag(codegen_ssa_invalid_monomorphization_third_arg_element_type, code = "E0511")]
ThirdArgElementType {
#[primary_span]
span: Span,
name: Symbol,
expected_element: Ty<'tcx>,
third_arg: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_unsupported_symbol_of_size, code = "E0511")]
UnsupportedSymbolOfSize {
#[primary_span]
span: Span,
name: Symbol,
symbol: Symbol,
in_ty: Ty<'tcx>,
in_elem: Ty<'tcx>,
size: u64,
ret_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_unsupported_symbol, code = "E0511")]
UnsupportedSymbol {
#[primary_span]
span: Span,
name: Symbol,
symbol: Symbol,
in_ty: Ty<'tcx>,
in_elem: Ty<'tcx>,
ret_ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_cast_fat_pointer, code = "E0511")]
CastFatPointer {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_expected_pointer, code = "E0511")]
ExpectedPointer {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_expected_usize, code = "E0511")]
ExpectedUsize {
#[primary_span]
span: Span,
name: Symbol,
ty: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_unsupported_cast, code = "E0511")]
UnsupportedCast {
#[primary_span]
span: Span,
name: Symbol,
in_ty: Ty<'tcx>,
in_elem: Ty<'tcx>,
ret_ty: Ty<'tcx>,
out_elem: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_unsupported_operation, code = "E0511")]
UnsupportedOperation {
#[primary_span]
span: Span,
name: Symbol,
in_ty: Ty<'tcx>,
in_elem: Ty<'tcx>,
},
#[diag(codegen_ssa_invalid_monomorphization_expected_vector_element_type, code = "E0511")]
ExpectedVectorElementType {
#[primary_span]
span: Span,
name: Symbol,
expected_element: Ty<'tcx>,
vector_type: Ty<'tcx>,
},
}
pub enum ExpectedPointerMutability {
Mut,
Not,
}
impl IntoDiagnosticArg for ExpectedPointerMutability {
fn into_diagnostic_arg(self) -> DiagnosticArgValue<'static> {
match self {
ExpectedPointerMutability::Mut => DiagnosticArgValue::Str(Cow::Borrowed("*mut")),
ExpectedPointerMutability::Not => DiagnosticArgValue::Str(Cow::Borrowed("*_")),
}
}
}

11
compiler/rustc_codegen_ssa/src/mir/constant.rs
View File

@ -1,3 +1,4 @@
use crate::errors;
use crate::mir::operand::OperandRef; use crate::mir::operand::OperandRef;
use crate::traits::*; use crate::traits::*;
use rustc_middle::mir; use rustc_middle::mir;
@ -44,10 +45,14 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
self.cx.tcx().const_eval_resolve(ty::ParamEnv::reveal_all(), uv, None).map_err(|err| { self.cx.tcx().const_eval_resolve(ty::ParamEnv::reveal_all(), uv, None).map_err(|err| {
match err { match err {
ErrorHandled::Reported(_) => { ErrorHandled::Reported(_) => {
self.cx.tcx().sess.span_err(constant.span, "erroneous constant encountered"); self.cx.tcx().sess.emit_err(errors::ErroneousConstant { span: constant.span });
} }
ErrorHandled::TooGeneric => { ErrorHandled::TooGeneric => {
span_bug!(constant.span, "codegen encountered polymorphic constant: {:?}", err); self.cx
.tcx()
.sess
.diagnostic()
.emit_bug(errors::PolymorphicConstantTooGeneric { span: constant.span });
} }
} }
err err
@ -87,7 +92,7 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
(llval, c.ty()) (llval, c.ty())
}) })
.unwrap_or_else(|_| { .unwrap_or_else(|_| {
bx.tcx().sess.span_err(span, "could not evaluate shuffle_indices at compile time"); bx.tcx().sess.emit_err(errors::ShuffleIndicesEvaluation { span });
// We've errored, so we don't have to produce working code. // We've errored, so we don't have to produce working code.
let ty = self.monomorphize(ty); let ty = self.monomorphize(ty);
let llty = bx.backend_type(bx.layout_of(ty)); let llty = bx.backend_type(bx.layout_of(ty));

64
compiler/rustc_codegen_ssa/src/mir/intrinsic.rs
View File

@ -1,7 +1,9 @@
use super::operand::{OperandRef, OperandValue}; use super::operand::{OperandRef, OperandValue};
use super::place::PlaceRef; use super::place::PlaceRef;
use super::FunctionCx; use super::FunctionCx;
use crate::common::{span_invalid_monomorphization_error, IntPredicate}; use crate::common::IntPredicate;
use crate::errors;
use crate::errors::InvalidMonomorphization;
use crate::glue; use crate::glue;
use crate::meth; use crate::meth;
use crate::traits::*; use crate::traits::*;
@ -305,15 +307,7 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
_ => bug!(), _ => bug!(),
}, },
None => { None => {
span_invalid_monomorphization_error( bx.tcx().sess.emit_err(InvalidMonomorphization::BasicIntegerType { span, name, ty });
bx.tcx().sess,
span,
&format!(
"invalid monomorphization of `{}` intrinsic: \
expected basic integer type, found `{}`",
name, ty
),
);
return; return;
} }
} }
@ -329,15 +323,7 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
_ => bug!(), _ => bug!(),
}, },
None => { None => {
span_invalid_monomorphization_error( bx.tcx().sess.emit_err(InvalidMonomorphization::BasicFloatType { span, name, ty: arg_tys[0] });
bx.tcx().sess,
span,
&format!(
"invalid monomorphization of `{}` intrinsic: \
expected basic float type, found `{}`",
name, arg_tys[0]
),
);
return; return;
} }
} }
@ -345,29 +331,11 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
sym::float_to_int_unchecked => { sym::float_to_int_unchecked => {
if float_type_width(arg_tys[0]).is_none() { if float_type_width(arg_tys[0]).is_none() {
span_invalid_monomorphization_error( bx.tcx().sess.emit_err(InvalidMonomorphization::FloatToIntUnchecked { span, ty: arg_tys[0] });
bx.tcx().sess,
span,
&format!(
"invalid monomorphization of `float_to_int_unchecked` \
intrinsic: expected basic float type, \
found `{}`",
arg_tys[0]
),
);
return; return;
} }
let Some((_width, signed)) = int_type_width_signed(ret_ty, bx.tcx()) else { let Some((_width, signed)) = int_type_width_signed(ret_ty, bx.tcx()) else {
span_invalid_monomorphization_error( bx.tcx().sess.emit_err(InvalidMonomorphization::FloatToIntUnchecked { span, ty: ret_ty });
bx.tcx().sess,
span,
&format!(
"invalid monomorphization of `float_to_int_unchecked` \
intrinsic: expected basic integer type, \
found `{}`",
ret_ty
),
);
return; return;
}; };
if signed { if signed {
@ -402,7 +370,7 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
use crate::common::{AtomicRmwBinOp, SynchronizationScope}; use crate::common::{AtomicRmwBinOp, SynchronizationScope};
let Some((instruction, ordering)) = atomic.split_once('_') else { let Some((instruction, ordering)) = atomic.split_once('_') else {
bx.sess().fatal("Atomic intrinsic missing memory ordering"); bx.sess().emit_fatal(errors::MissingMemoryOrdering);
}; };
let parse_ordering = |bx: &Bx, s| match s { let parse_ordering = |bx: &Bx, s| match s {
@ -412,25 +380,17 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
"release" => Release, "release" => Release,
"acqrel" => AcquireRelease, "acqrel" => AcquireRelease,
"seqcst" => SequentiallyConsistent, "seqcst" => SequentiallyConsistent,
_ => bx.sess().fatal("unknown ordering in atomic intrinsic"), _ => bx.sess().emit_fatal(errors::UnknownAtomicOrdering),
}; };
let invalid_monomorphization = |ty| { let invalid_monomorphization = |ty| {
span_invalid_monomorphization_error( bx.tcx().sess.emit_err(InvalidMonomorphization::BasicIntegerType { span, name, ty });
bx.tcx().sess,
span,
&format!(
"invalid monomorphization of `{}` intrinsic: \
expected basic integer type, found `{}`",
name, ty
),
);
}; };
match instruction { match instruction {
"cxchg" | "cxchgweak" => { "cxchg" | "cxchgweak" => {
let Some((success, failure)) = ordering.split_once('_') else { let Some((success, failure)) = ordering.split_once('_') else {
bx.sess().fatal("Atomic compare-exchange intrinsic missing failure memory ordering"); bx.sess().emit_fatal(errors::AtomicCompareExchange);
}; };
let ty = substs.type_at(0); let ty = substs.type_at(0);
if int_type_width_signed(ty, bx.tcx()).is_some() || ty.is_unsafe_ptr() { if int_type_width_signed(ty, bx.tcx()).is_some() || ty.is_unsafe_ptr() {
@ -529,7 +489,7 @@ impl<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>> FunctionCx<'a, 'tcx, Bx> {
"min" => AtomicRmwBinOp::AtomicMin, "min" => AtomicRmwBinOp::AtomicMin,
"umax" => AtomicRmwBinOp::AtomicUMax, "umax" => AtomicRmwBinOp::AtomicUMax,
"umin" => AtomicRmwBinOp::AtomicUMin, "umin" => AtomicRmwBinOp::AtomicUMin,
_ => bx.sess().fatal("unknown atomic operation"), _ => bx.sess().emit_fatal(errors::UnknownAtomicOperation),
}; };
let ty = substs.type_at(0); let ty = substs.type_at(0);

99
compiler/rustc_error_messages/locales/en-US/codegen_ssa.ftl
View File

@ -192,3 +192,102 @@ codegen_ssa_unknown_archive_kind =
Don't know how to build archive of type: {$kind} Don't know how to build archive of type: {$kind}
codegen_ssa_expected_used_symbol = expected `used`, `used(compiler)` or `used(linker)` codegen_ssa_expected_used_symbol = expected `used`, `used(compiler)` or `used(linker)`
codegen_ssa_multiple_main_functions = entry symbol `main` declared multiple times
.help = did you use `#[no_mangle]` on `fn main`? Use `#[start]` instead
codegen_ssa_metadata_object_file_write = error writing metadata object file: {$error}
codegen_ssa_invalid_windows_subsystem = invalid windows subsystem `{$subsystem}`, only `windows` and `console` are allowed
codegen_ssa_erroneous_constant = erroneous constant encountered
codegen_ssa_shuffle_indices_evaluation = could not evaluate shuffle_indices at compile time
codegen_ssa_missing_memory_ordering = Atomic intrinsic missing memory ordering
codegen_ssa_unknown_atomic_ordering = unknown ordering in atomic intrinsic
codegen_ssa_atomic_compare_exchange = Atomic compare-exchange intrinsic missing failure memory ordering
codegen_ssa_unknown_atomic_operation = unknown atomic operation
codegen_ssa_invalid_monomorphization_basic_integer_type = invalid monomorphization of `{$name}` intrinsic: expected basic integer type, found `{$ty}`
codegen_ssa_invalid_monomorphization_basic_float_type = invalid monomorphization of `{$name}` intrinsic: expected basic float type, found `{$ty}`
codegen_ssa_invalid_monomorphization_float_to_int_unchecked = invalid monomorphization of `float_to_int_unchecked` intrinsic: expected basic float type, found `{$ty}`
codegen_ssa_invalid_monomorphization_floating_point_vector = invalid monomorphization of `{$name}` intrinsic: unsupported element type `{$f_ty}` of floating-point vector `{$in_ty}`
codegen_ssa_invalid_monomorphization_floating_point_type = invalid monomorphization of `{$name}` intrinsic: `{$in_ty}` is not a floating-point type
codegen_ssa_invalid_monomorphization_unrecognized_intrinsic = invalid monomorphization of `{$name}` intrinsic: unrecognized intrinsic `{$name}`
codegen_ssa_invalid_monomorphization_simd_argument = invalid monomorphization of `{$name}` intrinsic: expected SIMD argument type, found non-SIMD `{$ty}`
codegen_ssa_invalid_monomorphization_simd_input = invalid monomorphization of `{$name}` intrinsic: expected SIMD input type, found non-SIMD `{$ty}`
codegen_ssa_invalid_monomorphization_simd_first = invalid monomorphization of `{$name}` intrinsic: expected SIMD first type, found non-SIMD `{$ty}`
codegen_ssa_invalid_monomorphization_simd_second = invalid monomorphization of `{$name}` intrinsic: expected SIMD second type, found non-SIMD `{$ty}`
codegen_ssa_invalid_monomorphization_simd_third = invalid monomorphization of `{$name}` intrinsic: expected SIMD third type, found non-SIMD `{$ty}`
codegen_ssa_invalid_monomorphization_simd_return = invalid monomorphization of `{$name}` intrinsic: expected SIMD return type, found non-SIMD `{$ty}`
codegen_ssa_invalid_monomorphization_invalid_bitmask = invalid monomorphization of `{$name}` intrinsic: invalid bitmask `{$mask_ty}`, expected `u{$expected_int_bits}` or `[u8; {$expected_bytes}]`
codegen_ssa_polymorphic_constant_too_generic = codegen encountered polymorphic constant: TooGeneric
codegen_ssa_invalid_monomorphization_return_length_input_type = invalid monomorphization of `{$name}` intrinsic: expected return type with length {$in_len} (same as input type `{$in_ty}`), found `{$ret_ty}` with length {$out_len}
codegen_ssa_invalid_monomorphization_second_argument_length = invalid monomorphization of `{$name}` intrinsic: expected second argument with length {$in_len} (same as input type `{$in_ty}`), found `{$arg_ty}` with length {$out_len}
codegen_ssa_invalid_monomorphization_third_argument_length = invalid monomorphization of `{$name}` intrinsic: expected third argument with length {$in_len} (same as input type `{$in_ty}`), found `{$arg_ty}` with length {$out_len}
codegen_ssa_invalid_monomorphization_return_integer_type = invalid monomorphization of `{$name}` intrinsic: expected return type with integer elements, found `{$ret_ty}` with non-integer `{$out_ty}`
codegen_ssa_invalid_monomorphization_simd_shuffle = invalid monomorphization of `{$name}` intrinsic: simd_shuffle index must be an array of `u32`, got `{$ty}`
codegen_ssa_invalid_monomorphization_return_length = invalid monomorphization of `{$name}` intrinsic: expected return type of length {$in_len}, found `{$ret_ty}` with length {$out_len}
codegen_ssa_invalid_monomorphization_return_element = invalid monomorphization of `{$name}` intrinsic: expected return element type `{$in_elem}` (element of input `{$in_ty}`), found `{$ret_ty}` with element type `{$out_ty}`
codegen_ssa_invalid_monomorphization_shuffle_index_not_constant = invalid monomorphization of `{$name}` intrinsic: shuffle index #{$arg_idx} is not a constant
codegen_ssa_invalid_monomorphization_shuffle_index_out_of_bounds = invalid monomorphization of `{$name}` intrinsic: shuffle index #{$arg_idx} is out of bounds (limit {$total_len})
codegen_ssa_invalid_monomorphization_inserted_type = invalid monomorphization of `{$name}` intrinsic: expected inserted type `{$in_elem}` (element of input `{$in_ty}`), found `{$out_ty}`
codegen_ssa_invalid_monomorphization_return_type = invalid monomorphization of `{$name}` intrinsic: expected return type `{$in_elem}` (element of input `{$in_ty}`), found `{$ret_ty}`
codegen_ssa_invalid_monomorphization_expected_return_type = invalid monomorphization of `{$name}` intrinsic: expected return type `{$in_ty}`, found `{$ret_ty}`
codegen_ssa_invalid_monomorphization_mismatched_lengths = invalid monomorphization of `{$name}` intrinsic: mismatched lengths: mask length `{$m_len}` != other vector length `{$v_len}`
codegen_ssa_invalid_monomorphization_mask_type = invalid monomorphization of `{$name}` intrinsic: mask element type is `{$ty}`, expected `i_`
codegen_ssa_invalid_monomorphization_vector_argument = invalid monomorphization of `{$name}` intrinsic: vector argument `{$in_ty}`'s element type `{$in_elem}`, expected integer element type
codegen_ssa_invalid_monomorphization_cannot_return = invalid monomorphization of `{$name}` intrinsic: cannot return `{$ret_ty}`, expected `u{$expected_int_bits}` or `[u8; {$expected_bytes}]`
codegen_ssa_invalid_monomorphization_expected_element_type = invalid monomorphization of `{$name}` intrinsic: expected element type `{$expected_element}` of second argument `{$second_arg}` to be a pointer to the element type `{$in_elem}` of the first argument `{$in_ty}`, found `{$expected_element}` != `{$mutability} {$in_elem}`
codegen_ssa_invalid_monomorphization_third_arg_element_type = invalid monomorphization of `{$name}` intrinsic: expected element type `{$expected_element}` of third argument `{$third_arg}` to be a signed integer type
codegen_ssa_invalid_monomorphization_unsupported_symbol_of_size = invalid monomorphization of `{$name}` intrinsic: unsupported {$symbol} from `{$in_ty}` with element `{$in_elem}` of size `{$size}` to `{$ret_ty}`
codegen_ssa_invalid_monomorphization_unsupported_symbol = invalid monomorphization of `{$name}` intrinsic: unsupported {$symbol} from `{$in_ty}` with element `{$in_elem}` to `{$ret_ty}`
codegen_ssa_invalid_monomorphization_cast_fat_pointer = invalid monomorphization of `{$name}` intrinsic: cannot cast fat pointer `{$ty}`
codegen_ssa_invalid_monomorphization_expected_pointer = invalid monomorphization of `{$name}` intrinsic: expected pointer, got `{$ty}`
codegen_ssa_invalid_monomorphization_expected_usize = invalid monomorphization of `{$name}` intrinsic: expected `usize`, got `{$ty}`
codegen_ssa_invalid_monomorphization_unsupported_cast = invalid monomorphization of `{$name}` intrinsic: unsupported cast from `{$in_ty}` with element `{$in_elem}` to `{$ret_ty}` with element `{$out_elem}`
codegen_ssa_invalid_monomorphization_unsupported_operation = invalid monomorphization of `{$name}` intrinsic: unsupported operation on `{$in_ty}` with element `{$in_elem}`
codegen_ssa_invalid_monomorphization_expected_vector_element_type = invalid monomorphization of `{$name}` intrinsic: expected element type `{$expected_element}` of vector type `{$vector_type}` to be a signed or unsigned integer type

1
compiler/rustc_errors/Cargo.toml
View File

@ -17,6 +17,7 @@ rustc_data_structures = { path = "../rustc_data_structures" }
rustc_target = { path = "../rustc_target" } rustc_target = { path = "../rustc_target" }
rustc_hir = { path = "../rustc_hir" } rustc_hir = { path = "../rustc_hir" }
rustc_lint_defs = { path = "../rustc_lint_defs" } rustc_lint_defs = { path = "../rustc_lint_defs" }
rustc_type_ir = { path = "../rustc_type_ir" }
unicode-width = "0.1.4" unicode-width = "0.1.4"
termcolor = "1.0" termcolor = "1.0"
annotate-snippets = "0.9" annotate-snippets = "0.9"

55
compiler/rustc_errors/src/diagnostic_builder.rs
View File

@ -1,7 +1,7 @@
use crate::diagnostic::IntoDiagnosticArg; use crate::diagnostic::IntoDiagnosticArg;
use crate::{ use crate::{
Diagnostic, DiagnosticId, DiagnosticMessage, DiagnosticStyledString, ErrorGuaranteed, Diagnostic, DiagnosticId, DiagnosticMessage, DiagnosticStyledString, ErrorGuaranteed,
SubdiagnosticMessage, ExplicitBug, SubdiagnosticMessage,
}; };
use crate::{Handler, Level, MultiSpan, StashKey}; use crate::{Handler, Level, MultiSpan, StashKey};
use rustc_lint_defs::Applicability; use rustc_lint_defs::Applicability;
@ -12,6 +12,7 @@ use std::borrow::Cow;
use std::fmt::{self, Debug}; use std::fmt::{self, Debug};
use std::marker::PhantomData; use std::marker::PhantomData;
use std::ops::{Deref, DerefMut}; use std::ops::{Deref, DerefMut};
use std::panic;
use std::thread::panicking; use std::thread::panicking;
/// Trait implemented by error types. This should not be implemented manually. Instead, use /// Trait implemented by error types. This should not be implemented manually. Instead, use
@ -308,6 +309,58 @@ impl EmissionGuarantee for Noted {
} }
} }
/// Marker type which enables implementation of `create_bug` and `emit_bug` functions for
/// bug struct diagnostics.
#[derive(Copy, Clone)]
pub struct Bug;
impl<'a> DiagnosticBuilder<'a, Bug> {
/// Convenience function for internal use, clients should use one of the
/// `struct_*` methods on [`Handler`].
#[track_caller]
pub(crate) fn new_bug(handler: &'a Handler, message: impl Into<DiagnosticMessage>) -> Self {
let diagnostic = Diagnostic::new_with_code(Level::Bug, None, message);
Self::new_diagnostic_bug(handler, diagnostic)
}
/// Creates a new `DiagnosticBuilder` with an already constructed
/// diagnostic.
pub(crate) fn new_diagnostic_bug(handler: &'a Handler, diagnostic: Diagnostic) -> Self {
debug!("Created new diagnostic bug");
Self {
inner: DiagnosticBuilderInner {
state: DiagnosticBuilderState::Emittable(handler),
diagnostic: Box::new(diagnostic),
},
_marker: PhantomData,
}
}
}
impl EmissionGuarantee for Bug {
fn diagnostic_builder_emit_producing_guarantee(db: &mut DiagnosticBuilder<'_, Self>) -> Self {
match db.inner.state {
// First `.emit()` call, the `&Handler` is still available.
DiagnosticBuilderState::Emittable(handler) => {
db.inner.state = DiagnosticBuilderState::AlreadyEmittedOrDuringCancellation;
handler.emit_diagnostic(&mut db.inner.diagnostic);
}
// `.emit()` was previously called, disallowed from repeating it.
DiagnosticBuilderState::AlreadyEmittedOrDuringCancellation => {}
}
// Then panic. No need to return the marker type.
panic::panic_any(ExplicitBug);
}
fn make_diagnostic_builder(
handler: &Handler,
msg: impl Into<DiagnosticMessage>,
) -> DiagnosticBuilder<'_, Self> {
DiagnosticBuilder::new_bug(handler, msg)
}
}
impl<'a> DiagnosticBuilder<'a, !> { impl<'a> DiagnosticBuilder<'a, !> {
/// Convenience function for internal use, clients should use one of the /// Convenience function for internal use, clients should use one of the
/// `struct_*` methods on [`Handler`]. /// `struct_*` methods on [`Handler`].

7
compiler/rustc_errors/src/diagnostic_impls.rs
View File

@ -9,6 +9,7 @@ use rustc_span::edition::Edition;
use rustc_span::symbol::{Ident, MacroRulesNormalizedIdent, Symbol}; use rustc_span::symbol::{Ident, MacroRulesNormalizedIdent, Symbol};
use rustc_target::abi::TargetDataLayoutErrors; use rustc_target::abi::TargetDataLayoutErrors;
use rustc_target::spec::{PanicStrategy, SplitDebuginfo, StackProtector, TargetTriple}; use rustc_target::spec::{PanicStrategy, SplitDebuginfo, StackProtector, TargetTriple};
use rustc_type_ir as type_ir;
use std::borrow::Cow; use std::borrow::Cow;
use std::fmt; use std::fmt;
use std::num::ParseIntError; use std::num::ParseIntError;
@ -170,6 +171,12 @@ impl IntoDiagnosticArg for ast::token::TokenKind {
} }
} }
impl IntoDiagnosticArg for type_ir::FloatTy {
fn into_diagnostic_arg(self) -> DiagnosticArgValue<'static> {
DiagnosticArgValue::Str(Cow::Borrowed(self.name_str()))
}
}
impl IntoDiagnosticArg for Level { impl IntoDiagnosticArg for Level {
fn into_diagnostic_arg(self) -> DiagnosticArgValue<'static> { fn into_diagnostic_arg(self) -> DiagnosticArgValue<'static> {
DiagnosticArgValue::Str(Cow::Borrowed(match self { DiagnosticArgValue::Str(Cow::Borrowed(match self {

14
compiler/rustc_errors/src/lib.rs
View File

@ -1133,6 +1133,20 @@ impl Handler {
self.create_fatal(fatal).emit() self.create_fatal(fatal).emit()
} }
pub fn create_bug<'a>(
&'a self,
bug: impl IntoDiagnostic<'a, diagnostic_builder::Bug>,
) -> DiagnosticBuilder<'a, diagnostic_builder::Bug> {
bug.into_diagnostic(self)
}
pub fn emit_bug<'a>(
&'a self,
bug: impl IntoDiagnostic<'a, diagnostic_builder::Bug>,
) -> diagnostic_builder::Bug {
self.create_bug(bug).emit()
}
fn emit_diag_at_span( fn emit_diag_at_span(
&self, &self,
mut diag: Diagnostic, mut diag: Diagnostic,